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Natural Fault-Tolerant Control With Minimum Copper Loss in Full Torque Operation Range for Dual Three-Phase PMSM Under Open-Circuit Fault

Qiang Geng, Zhongchen Li, Huimin Wang, Guozheng Zhang, Zhanqing Zhou

2023IEEE Transactions on Power Electronics53 citationsDOI

Abstract

Traditional perspective considers that there is a tradeoff between the postfault operational performance and the implementation complexity of the control scheme. To approach this problem, this article proposes a natural full range minimum-loss strategy by analyzing the current relation between torque subspace and harmonic subspace. The harmonic subspace current references satisfying full range minimum-loss are generated by a simple expression according to the real-time subspace current vector features. Compared with existing fault-tolerant control methods, the proposed strategy does not need complicate fault diagnosis, as well as offline or online optimization process. The experimental results demonstrate that the proposed fault-tolerant control strategy can achieve smooth prefault to postfault transition and FRML simultaneously.

Topics & Concepts

Copper lossDual (grammatical number)Fault (geology)TorqueControl theory (sociology)Fault tolerancePhase (matter)Phase controlRange (aeronautics)EngineeringComputer scienceElectrical engineeringControl (management)VoltagePhysicsElectromagnetic coilReliability engineeringAerospace engineeringSeismologyArtificial intelligenceLiteratureThermodynamicsArtGeologyQuantum mechanicsMultilevel Inverters and ConvertersAdvanced Battery Technologies ResearchAdvanced DC-DC Converters
Natural Fault-Tolerant Control With Minimum Copper Loss in Full Torque Operation Range for Dual Three-Phase PMSM Under Open-Circuit Fault | Litcius